TOKYO--
NHK President Masayuki Matsumoto and
Mitsubishi President & CEO Kenichiro
Yamanishi announced their respective company’s joint development of an HEVC1
encoder for
8K ultra HDTV, or what NHK is calling “Super Hi-Vision.”

SHV is said to have 16
times the number of HD pixels and 22.2 multichannel surround sound. The high-volume SHV images are divided into 17 horizontal rows.
The parallel processing of these rows makes it possible to achieve
real-time coding of SHV images. The deterioration of picture quality at
the row boundaries has been lessened by having rows share data
concerning the speed, direction, etc. of moving objects.

NHK and Mitsubishi are pursuing research and
development of real-time coding of the 120 Hz frame frequency of SHV, the companies said in a press release.

The HEVC encoder will be displayed at the NHK Science &
Technology Research Laboratories Open House 2013, which will take place
May 30 to June 2.

2) AVC (Advanced Video Coding):
MPEG-4 AVC/H.264. A video coding standard developed by the ISO/IEC and
the ITU. It provides about double the video compression of the current
MPEG-2 standard for digital HDTV.

－ Features of HEVC
Video coding technology divides a frame into small blocks referred to as
macroblocks. The prediction and transformation coding of the images is
conducted in each block. HEVC offers variable blocks that can handle up to 64x64 pixels, changing
the size according to texture, while AVC has relied on a fixed
macroblock size of 16x16 pixels. It achieves both high compression and
high resolution.

－ Features of the HEVC encoder
The SHV screen is divided in 17 rows made up of 7,680 x 256 pixels. The
coding in each of the rows is processed simultaneously. Data in each row
is shared with the row immediately above and below, thereby lessening
the deterioration in picture quality that occurs at the row boundaries.